Legal claims defining the scope of protection. Each claim is shown in both the original legal language and a plain English translation.
1. A map screen determining method, comprising: obtaining profile data in a track dimension of a target digital person from a digital person generation system, wherein the target digital person comprises a plurality of dimensions of target user profiles corresponding to a target user, and wherein the target user profiles are generated based on data received from a plurality of data sources; determining map data of a target area, wherein the target area is a specific map area that is customized for a user; and generating a visual element representing the target digital person on a tracing map screen according to the profile data in the track dimension of the target digital person and the map data, wherein the tracing map screen represents a track feature of the target digital person in the target area.
This invention relates to personalized digital mapping systems that visualize user profiles and activities within a customized geographic area. The method addresses the challenge of representing dynamic user data in a spatially relevant way, enabling users to track and analyze their digital personas across different dimensions. The system obtains profile data for a target digital person, which is a multi-dimensional representation of a user derived from multiple data sources. This data includes a track dimension, which captures movement or activity patterns. The system then retrieves map data for a specific target area, which is a customized geographic region tailored to the user's needs. Using this information, the system generates a visual element on a tracing map screen that represents the target digital person. The tracing map screen highlights the track feature of the digital person within the target area, allowing users to visualize their activity patterns in a spatial context. The method ensures that user profiles are dynamically linked to geographic data, providing insights into how different dimensions of a user's digital persona interact with physical or virtual spaces. This approach enhances personalization and contextual awareness in digital mapping applications.
2. The method according to claim 1 , wherein determining the tracing map screen comprises: determining, according to the profile data in the track dimension of the target digital person in the target area, a frequency at which the target digital person has appeared at a place in the target area; and generating, according to the frequency at which the target digital person has appeared at the place in the target area, a visual element representing the frequency at which the target digital person has appeared at the place in the target area, wherein the visual element represents the track feature of the target digital person in the target area, wherein the tracing map screen comprises the visual element.
This invention relates to digital tracking and visualization systems, specifically for analyzing and displaying movement patterns of digital entities within a defined area. The problem addressed is the need to effectively visualize the frequency and distribution of a digital entity's presence in different locations within a target area, enabling better tracking and behavioral analysis. The method involves generating a tracing map screen that visually represents the movement patterns of a target digital person within a specified area. The process begins by analyzing profile data associated with the digital person in the track dimension of the target area. This data is used to determine how often the digital person appears at specific locations within the area. Based on this frequency data, visual elements are generated to represent the appearance frequency at each location. These visual elements collectively form the tracing map screen, providing a clear and intuitive representation of the digital person's movement patterns within the target area. The visual elements can include graphical indicators such as heatmaps, markers, or other visual cues that highlight areas of frequent activity. This allows users to quickly identify high-traffic zones and understand the digital person's behavior within the area. The method enhances tracking accuracy and provides insights into movement patterns, which can be useful in applications such as digital surveillance, behavioral analysis, or virtual environment monitoring.
3. The method according to claim 2 , wherein the visual element is a thermodynamic diagram corresponding to the frequency at which the target digital person has appeared at the place in the target area.
This invention relates to systems for tracking and visualizing the presence of digital entities, such as avatars or virtual personas, within a defined geographic area. The problem addressed is the need for an intuitive way to represent the frequency and distribution of these digital entities in a target location, enabling better monitoring and analysis of their activity patterns. The method involves generating a visual representation of the frequency at which a target digital entity appears in a specific area. This is achieved by creating a thermodynamic diagram, which is a graphical representation that uses color gradients, heat maps, or other visual indicators to show the density or frequency of appearances. The diagram dynamically updates based on real-time or historical data, allowing users to observe trends, peak activity times, and spatial distribution patterns. The thermodynamic diagram is generated by analyzing data logs or tracking systems that record the presence of the digital entity in the target area. The system processes this data to determine the frequency of appearances and maps it onto the diagram, where higher frequencies are represented by more intense colors or markers. This visualization helps users quickly identify areas of high activity and understand the behavior of the digital entity over time. The method is particularly useful in applications such as virtual reality environments, social media analytics, or digital advertising, where tracking the movement and presence of digital entities is critical for decision-making and optimization. By providing a clear, visual summary of activity patterns, the system enhances user experience and operational efficiency.
4. The method according to claim 2 , wherein the visual element comprises at least two different identifiers corresponding to the frequency at which the target digital person has appeared at the place in the target area.
This invention relates to digital person tracking and visualization in a target area, addressing the challenge of efficiently monitoring and identifying individuals within a defined space. The method involves displaying a visual element associated with a target digital person, where the visual element includes at least two distinct identifiers. These identifiers indicate the frequency at which the target digital person has appeared at a specific location within the target area. The visual element may be part of a broader tracking system that generates and displays digital representations of individuals, allowing for real-time or historical analysis of movement patterns. The identifiers could be visual markers, color codes, or other distinguishable features that convey frequency data, such as how often the person has been detected at that location. This approach enhances situational awareness by providing clear, visual indicators of activity patterns, aiding in security, crowd management, or behavioral analysis applications. The system may integrate with sensors or cameras to capture and process data, ensuring accurate tracking and visualization. The invention improves upon existing methods by offering a more intuitive and informative way to represent frequency data, reducing the need for complex data interpretation.
5. The method according to claim 4 , wherein the tracing map screen further comprises a legend indicating a correspondence between the at least two different identifiers and the frequency at which the target digital person has appeared at the place in the target area.
This invention relates to digital tracking and monitoring systems, specifically for visualizing the movement and frequency of a target digital person within a defined area. The system addresses the challenge of tracking and analyzing digital entities in a networked environment by providing a tracing map screen that displays the movement paths of the target digital person. The tracing map includes at least two different identifiers that distinguish between different types of digital interactions or states, such as active presence, inactive presence, or transitions between states. The map visually represents these identifiers along the movement path to indicate the target's activity patterns. Additionally, the tracing map includes a legend that correlates the identifiers with the frequency at which the target digital person appears at specific locations within the target area. This allows users to quickly assess not only the movement path but also the relative frequency of appearances at different places, enhancing situational awareness and enabling more effective monitoring. The system may also include features such as real-time updates, historical data analysis, and customizable display options to adapt to different monitoring needs. The invention is particularly useful in applications such as cybersecurity, digital forensics, and network traffic analysis, where tracking digital entities and understanding their behavior is critical.
6. The method according to claim 1 , wherein before obtaining the profile data in the track dimension of the target digital person, the method further comprises: presenting a digital person display widget to the user, wherein the digital person display widget is in a first state indicating that no profile data in a track dimension of a digital person is loaded on a current map screen; obtaining a first operation action performed by the user on the digital person display widget in the first state; presenting a digital person selection widget to the user in response to the first operation action, wherein the digital person selection widget comprises a plurality of digital person objects available for loading; and determining a digital person corresponding to a digital person object selected by the user as the target digital person, and wherein after determining the tracing map screen, the method further comprises: presenting the tracing map screen to the user; and presenting a second state of the digital person display widget to the user, wherein the second state indicates that the profile data in the track dimension of the target digital person is loaded on the current map screen.
This invention relates to digital mapping systems that display profile data for digital persons, such as avatars or virtual representations, on a map interface. The problem addressed is the lack of an intuitive way to load and visualize track dimension data (e.g., movement history, activity logs) for specific digital persons within a map environment. The method involves presenting a digital person display widget in a first state, indicating no loaded profile data for any digital person on the current map screen. When a user interacts with this widget, a digital person selection widget appears, listing available digital person objects. The user selects a target digital person from this list. After determining a tracing map screen (e.g., a map view showing the selected digital person's track data), the system displays this screen and updates the digital person display widget to a second state, confirming that the target digital person's profile data is now loaded. This ensures users can easily toggle between loaded and unloaded states for digital person track data, improving navigation and data visualization in digital mapping applications.
7. The method according to claim 6 , further comprising: obtaining a second operation action performed by the user on the digital person display widget in the second state; determining personal background information of the target digital person in response to the second operation action; and presenting a digital person information widget to the user, wherein the digital person information widget comprises the personal background information of the target digital person.
This invention relates to interactive digital person interfaces, specifically systems that allow users to engage with digital representations of individuals and access detailed personal background information. The problem addressed is the lack of intuitive and seamless ways to retrieve comprehensive personal data about a digital person within an interactive interface. The method involves a digital person display widget that can exist in at least two states: a first state where the digital person is presented in a simplified or default view, and a second state triggered by a user operation, such as a selection or gesture. In the second state, the digital person display widget provides enhanced interaction capabilities. When a user performs a second operation action on the widget in this state, the system retrieves and presents personal background information about the target digital person. This information is displayed in a dedicated digital person information widget, which may include details such as biographical data, professional history, or other relevant background context. The system dynamically adapts the interface to facilitate easy access to this information without disrupting the user's workflow. The approach ensures that users can efficiently obtain detailed personal insights about digital persons while maintaining an intuitive and responsive interaction experience.
8. The method according to claim 1 , further comprising: obtaining a third operation action performed by the user on a target place on the tracing map screen; and presenting a target place information widget to the user in response to the third operation action, wherein the target place information widget comprises statistical information related to the target place and the target digital person.
This invention relates to interactive digital mapping systems that track user interactions with a tracing map screen to provide contextual information about digital personas and locations. The problem addressed is the lack of intuitive, real-time access to detailed data about specific places and digital entities within a mapping interface. The method involves detecting user gestures or inputs on a tracing map screen to identify a target place of interest. When a user performs a predefined operation action (e.g., a tap, long press, or swipe) on the target place, the system retrieves and displays a target place information widget. This widget contains statistical information relevant to both the target place and a target digital person associated with that location. The statistical data may include metrics such as interaction frequency, user engagement levels, or other contextual insights derived from user behavior patterns. The widget enhances user experience by providing immediate, localized data without requiring navigation to separate screens or menus. The system dynamically generates the widget content based on real-time or historical data, ensuring relevance to the user's current context. This approach improves information accessibility and decision-making within digital mapping environments.
9. A map screen determining apparatus, comprising: a memory comprising instructions; and a processor coupled to the memory and configured to execute the instructions, which when executed, cause the processor to be configured to: obtain profile data in a track dimension of a target digital person from a digital person generation system, wherein the target digital person comprises a plurality of dimensions of target user profiles corresponding to a target user, and wherein the target user profiles are generated based on data received from a plurality of data sources; determine map data of a target area, wherein the target area is a specific map area that is customized a user; and generating a visual element respresenting the target digital person on a tracing map screen according to the profile data in the track dimension of the target digital person and the map data, wherein the tracing map screen represents a track feature of the target digital person in the target area.
This invention relates to a system for generating a personalized map screen that visually represents a digital person's track features within a specific geographic area. The system addresses the challenge of displaying user-specific movement or activity patterns on a map in a customized and visually intuitive manner. The apparatus includes a memory and a processor that executes instructions to obtain profile data in a track dimension of a target digital person from a digital person generation system. The target digital person is a digital representation of a user, comprising multiple dimensions of user profiles derived from various data sources. The system then determines map data for a specific target area, which is customized for the user. Using the profile data and map data, the system generates a visual element representing the target digital person on a tracing map screen. This screen displays the track features of the target digital person within the target area, allowing users to visualize their movement or activity patterns in a personalized and interactive way. The system integrates multiple data sources to create a comprehensive digital representation of the user, enhancing the accuracy and relevance of the displayed track features.
10. The apparatus according to claim 9 , wherein the instructions, when executed, further cause the processor to be configured to: determine, according to the profile data in the track dimension of the target digital person in the target area, a frequency at which the target digital person has appeared at a place in the target area; and generate, according to the frequency at which the target digital person has appeared at the place in the target area, a visual element representing the frequency at which the target digital person has appeared at the place in the target area, wherein the visual element represents the track feature of the target digital person in the target area, wherein the tracing map screen comprises the visual element.
This invention relates to digital tracking and visualization systems for monitoring the movement of a target digital person within a defined target area. The system addresses the challenge of effectively representing and analyzing the movement patterns of digital entities in virtual or augmented environments. The apparatus includes a processor and memory storing instructions that, when executed, enable the processor to process profile data associated with the target digital person. The profile data includes track dimensions that record the digital person's movements within the target area. The system determines the frequency at which the target digital person appears at specific locations within the area by analyzing this track data. Based on this frequency, the system generates a visual element that graphically represents the movement patterns or track features of the digital person. This visual element is integrated into a tracing map screen, providing an intuitive visualization of the digital person's activity and presence in the target area. The system enhances situational awareness by dynamically updating the visual representation as new track data is collected, allowing users to monitor and analyze movement trends over time. The invention is particularly useful in applications such as virtual reality, augmented reality, or digital surveillance systems where tracking and visualizing digital entity behavior is critical.
11. The apparatus according to claim 10 , wherein the visual element is a thermodynamic diagram corresponding to the frequency at which the target digital person has appeared at the place in the target area.
This invention relates to a system for visualizing the presence of a digital person within a target area. The system addresses the challenge of tracking and displaying the frequency of a digital person's appearances in specific locations, providing users with a clear, data-driven representation of their activity patterns. The apparatus includes a display device that presents a thermodynamic diagram, which visually maps the frequency of the digital person's appearances at various places within the target area. The thermodynamic diagram uses color gradients or other visual indicators to represent different frequency levels, allowing users to quickly identify high-activity zones. The system may also include sensors or data collection modules to track the digital person's movements and generate the thermodynamic diagram in real time or based on historical data. The apparatus ensures that users can efficiently monitor and analyze the digital person's presence, enabling better decision-making in applications such as security, surveillance, or digital interaction management. The thermodynamic diagram dynamically updates as new data is collected, ensuring the visualization remains accurate and relevant. The invention enhances situational awareness by providing an intuitive, visually rich representation of digital person activity.
12. The apparatus according to claim 10 , wherein the visual element comprises at least two different identifiers corresponding to the frequency at which the target digital person has appeared at the place in the target area.
This invention relates to a system for tracking and displaying digital personas in a target area, addressing the challenge of monitoring and identifying digital entities within a defined space. The apparatus includes a visual element that provides information about the frequency of appearances of a target digital person at a specific location within the target area. The visual element incorporates at least two distinct identifiers, each representing different frequency levels of the digital person's appearances. These identifiers allow users to quickly assess how often the digital person has been present at that location, enhancing situational awareness and tracking capabilities. The system may also include a display device for presenting the visual element, ensuring that the frequency data is clearly and accurately conveyed to users. The apparatus may further integrate with a tracking system that monitors the movements and appearances of digital personas within the target area, providing real-time or historical data to support the visual element's functionality. This invention improves the ability to analyze and interpret digital persona activity in a given space, aiding in applications such as security, surveillance, or digital environment management.
13. The apparatus according to claim 12 , wherein the tracing map screen further comprises a legend indicating a correspondence between the at least two different identifiers and the frequency at which the target digital person has appeared at the place in the target area.
This invention relates to a digital surveillance system for tracking the movements of a target digital person within a defined target area. The system addresses the challenge of monitoring and analyzing the presence and frequency of a digital entity across multiple locations, providing visual and analytical tools to enhance tracking accuracy and efficiency. The apparatus includes a tracing map screen that displays the movements of the target digital person within the target area. The screen visually represents the target's path using at least two different identifiers, such as colors, symbols, or markers, to distinguish between different types of movements or behaviors. Additionally, the tracing map screen includes a legend that correlates these identifiers with the frequency at which the target digital person has appeared at specific places within the target area. This allows users to quickly assess patterns of movement, such as how often the target visits certain locations or exhibits specific behaviors. The system may also include a tracking module that records the target's movements and generates the tracing map in real-time or based on historical data. The legend provides a clear reference for interpreting the displayed identifiers, ensuring that users can accurately understand the frequency and distribution of the target's appearances. This enhances situational awareness and supports decision-making in surveillance, security, or behavioral analysis applications. The apparatus may further integrate with other tracking or data analysis tools to provide a comprehensive monitoring solution.
14. The apparatus according to claim 9 , wherein the instructions, when executed, further cause the processor to be configured to: present a digital person display widget to the user, wherein the digital person display widget is in a first state indicating that no profile data in a track dimension of a digital person is loaded on a current map screen; obtain a first operation action performed by the user on the digital person display widget; present a digital person selection widget to the user in response to the first operation action, wherein the digital person selection widget comprises a plurality of digital person objects available for loading; determine a digital person corresponding to a digital person object selected by the user as the target digital person; present the tracing map screen to the user after determining the tracing map screen according to the profile data in the track dimension of the target digital person and the map data; and present a second state of the digital person display widget to the user, wherein the second state indicates that the profile data in the track dimension of the target digital person is loaded on the current map screen.
This invention relates to digital mapping systems that integrate user profile data with map displays. The problem addressed is the lack of intuitive ways to load and visualize personalized tracking data on maps, such as fitness routes, travel history, or other location-based profiles. The solution involves an apparatus with a processor and instructions that enable dynamic interaction with digital person data on maps. The system presents a digital person display widget in a first state, indicating no profile data is currently loaded on the map. When a user interacts with this widget, a selection interface appears, showing available digital person objects (e.g., user profiles or personas). After selecting a profile, the system loads the corresponding tracking data (e.g., GPS routes, timestamps) and displays it on the map. The widget then updates to a second state, confirming the data is active. The apparatus also includes a processor configured to generate and update the map screen based on the selected profile data and underlying map data. This allows users to toggle between different tracking profiles seamlessly, enhancing personalized map navigation and data visualization.
15. The apparatus according to claim 14 , wherein the instructions, when executed, further cause the processor to be configured to: obtain a second operation action performed by the user on the digital person display widget in the second state; determine personal background information of the target digital person in response to the second operation action; and present a digital person information widget to the user, wherein the digital person information widget comprises the personal background information of the target digital person.
This invention relates to digital person interaction systems, specifically enhancing user engagement with digital representations of individuals by providing detailed personal background information. The system includes a digital person display widget that can transition between a first state, where the digital person is presented in a simplified form, and a second state, where additional interactive features are enabled. When a user performs an operation action on the widget in the second state, the system retrieves and displays personal background information about the digital person in a dedicated information widget. This background information may include biographical details, professional history, or other relevant data. The system dynamically adjusts the display based on user interactions, ensuring a personalized and informative experience. The invention improves user engagement by providing deeper insights into digital personas, facilitating more meaningful interactions. The technical solution involves processing user inputs, querying databases for background information, and rendering the data in an accessible format within the user interface. This approach enhances digital interaction platforms by making digital personas more relatable and informative.
16. The apparatus according to claim 9 , wherein the instructions, when executed, further cause the processor to be configured to: obtain a third operation action performed by the user on a target place on the tracing map screen; and present a target place information widget to the user in response to the third operation action, wherein the target place information widget comprises statistical information related to the target place and the target digital person.
This invention relates to interactive digital mapping systems that enhance user engagement with digital personas and locations. The problem addressed is the lack of intuitive, context-aware information presentation when users interact with digital representations of people or places on a map interface. The solution provides a system where users can perform specific gestures or actions on a map to access detailed, dynamically generated information about both the location and the associated digital persona. The apparatus includes a display for rendering a tracing map screen showing digital personas and locations, a processor, and memory storing instructions. When executed, these instructions enable the processor to detect user interactions with the map, such as tapping or hovering over a specific location. In response, the system displays a dedicated information widget containing statistical data relevant to both the selected location and the digital persona linked to that place. This widget may include metrics like visit frequency, interaction history, or other contextual data, providing users with a comprehensive view of the relationship between the digital persona and the physical or virtual location. The system ensures real-time, personalized information delivery based on user actions, improving navigation and engagement within digital mapping environments.
17. The apparatus according to claim 9 , wherein the apparatus is a terminal.
A terminal device is disclosed that includes a display unit, a touch panel, and a control unit. The display unit presents visual information to a user. The touch panel is overlaid on the display unit and detects touch inputs from the user. The control unit processes the touch inputs and generates corresponding control signals. The terminal is configured to execute a specific function in response to a touch input detected by the touch panel. The function may include adjusting settings, launching applications, or performing other operations based on the detected touch input. The terminal may be a smartphone, tablet, or other portable electronic device. The touch panel and display unit are integrated to form a touchscreen interface, allowing users to interact directly with the displayed content. The control unit interprets the touch inputs, such as taps, swipes, or gestures, and triggers the appropriate actions. The apparatus may also include additional components, such as sensors or communication modules, to enhance functionality. The terminal is designed to provide an intuitive and responsive user experience by processing touch inputs efficiently and executing the desired functions accurately.
18. A map system, comprising: a display screen; a memory configured to store map data and instructions; and a processor coupled to the memory and the display screen, wherein the processor is configured to executed the instructions, which cause the processor to be configured to: determine whether a digital person display function is enabled; determine map data for a user in response to receiving a user instructions via a display screen; obtain profile data in a track dimension of a digital person selected by the user; convert the profile data in the track dimension of the digital person to data that is customized for the digital person and presentable on a tracing map screen; and generate a tracing map screen for display on the displace screen according to the map data and the profile data.
This invention relates to a map system that integrates digital person data with mapping functionality. The system addresses the challenge of presenting personalized map data in a way that is customized for a digital person, such as a virtual avatar or digital twin, allowing users to visualize their digital representation within a map context. The system includes a display screen, a memory storing map data and instructions, and a processor that executes these instructions. The processor first checks whether a digital person display function is enabled. Upon receiving user input, the system retrieves map data relevant to the user and obtains profile data for a digital person selected by the user. This profile data is associated with a track dimension, which may include movement patterns, location history, or other spatial attributes of the digital person. The system then converts this profile data into a format that is customized for the digital person and can be displayed on a tracing map screen. The conversion process ensures that the data is visually coherent and meaningful within the map context. Finally, the system generates a tracing map screen that combines the map data with the customized profile data, presenting a unified display on the screen. This allows users to see how their digital person interacts with or is represented within the mapped environment. The system enhances user engagement by personalizing map displays with digital person data, making it useful for applications in virtual reality, gaming, or digital twin simulations.
19. The map system according to claim 18 , wherein the target digital person comprises a plurality of dimensions of target user profiles corresponding to a target user, and wherein the target user profiles are generated based on data received from a plurality of data sources.
The map system is designed to enhance user interactions within a digital environment by leveraging a target digital person that represents a user with multiple dimensions of personalized profiles. The system addresses the challenge of providing highly relevant and context-aware digital experiences by dynamically generating and updating these profiles based on data from diverse sources. These sources may include user behavior, preferences, historical interactions, and external data feeds, ensuring a comprehensive and adaptive representation of the user. The system processes this data to create a multi-dimensional profile that reflects various aspects of the user's identity, interests, and needs. By integrating these profiles, the map system enables personalized content delivery, recommendations, and interactions tailored to the user's evolving preferences and context. This approach improves user engagement and satisfaction by delivering more accurate and meaningful digital experiences. The system's ability to synthesize data from multiple sources ensures that the target digital person remains up-to-date and reflective of the user's current state, enhancing the overall effectiveness of the digital environment.
20. The map system according to claim 18 , wherein the tracing map screen represents a track feature of the target digital person in the target area.
This invention relates to a map system designed to enhance navigation and tracking within a digital environment. The system addresses the challenge of accurately representing and monitoring the movement of a digital person within a defined target area. The map system includes a tracing map screen that visually displays the path or trajectory of the target digital person as they move through the target area. This feature allows users to track the digital person's movements in real-time or retrospectively, providing valuable insights into their behavior or location history. The tracing map screen may include additional details such as the digital person's speed, direction, or time spent in specific locations, depending on the system's configuration. The system is particularly useful in applications where monitoring digital entities is critical, such as virtual reality environments, gaming, or digital twin simulations. By providing a clear and dynamic representation of the digital person's movements, the system enables users to better understand and analyze their behavior within the target area.
Unknown
January 14, 2020
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